JP3652656B2 - Tree planting stabilizer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tree stabilizer used for stably holding a tree for a predetermined period after planting.
[0002]
[Prior art]
When planting trees, in order to be able to withstand strong winds, etc., a planting stabilizer is installed at the bottom of the excavated planting hole, and a root pot is placed on the plant, and the root pot is planted. After that, the planting hole is backfilled.
[0003]
Various types of tree planting stabilizers are known, and usually constitute a pedestal formed by a metal frame, and a locking ring is engaged with the frame with a root pot placed on the pedestal. At the same time, a tightening strip such as a sling connected to the locking ring is hung over the shoulder of the root pot, thereby binding the root pot to the pedestal.
[0004]
In general, the locking ring is composed of a rectangular frame-shaped annular metal fitting that is externally inserted into the frame constituting the pedestal, and a fastening strip such as a sling is inserted through the annular fitting and the shoulder of the root pot. The root pot is tied to the pedestal by being fastened by a fastening means such as a winch.
[0005]
[Problems to be solved by the invention]
In the case of the prior art, the purpose of the root pot is to fix the root pot on the pedestal by strongly fastening the tightening strip with a winch or the like, but the root pot is usually flat at the bottom. It is not a surface, but has an irregular spherical shape that bulges from the bottom to the side as a whole. For this reason, even if the tightening strip is tightened strongly, the contact between the frame of the pedestal and the root pot is only a limited area and does not have a sufficient contact area.
[0006]
In particular, since the pedestal in the conventional tree planting stabilization apparatus is generally a structure in which the pipe frame is framed like a grid, the contact area between the frame and the root pot is only a limited and narrow one, and Since the upper surface of the pipe frame that is framed in a cross-beam shape is configured to be located on the same horizontal plane, the bottom of the root pot with an irregular spherical shape contacts evenly to all the frames. Is not limited. In other words, as in the prior art, by simply tightening the root basin from the top to the bottom with fastening strips, the bottom of the root basin is in contact with the top surface of the frame in some parts, but the other part Then, a gap may be formed without contacting the upper surface of the frame.
[0007]
In this regard, conventionally, in order to stabilize the bottom of the root pot inside the planting hole, soil (new soil) dug into the planting hole from the top of the installed pedestal is placed and filled (banking). By placing the root pot so that the bottom of the root pot fits in, the root pot is held in a horizontal state, and in this state, the tightening strip placed between the pedestal and the root pot is tightened with a winch, and then placed in the planting hole. The new soil is returned (returned soil) and filled. At this time, after planting, water is poured into the planting hole to solidify the above-mentioned embankment and return soil, and the loose tightening strip is tightened again by the winch.
[0008]
However, even when the winch is retightened, the above-mentioned embankment and return soil are further solidified by the influence of nature such as wind and rain. In particular, when the embankment is soiled, the fastening force between the root pot and the frame is greatly reduced, and the tightening strip is loosened. For this reason, there is a problem that if a strong wind or the like is received before growing so that the roots are sufficiently rooted, the tree after planting tilts or falls.
[0009]
[Means for Solving the Problems]
The present invention is provided with a support member that can suitably support the root pot from the bottom to the side when the root pot is placed on the pedestal, and when fastening the tightening strip, The present invention also provides a planting stabilization device that can be suitably exerted between the support member and the support member, and that can securely prevent loosening of the tightening strip even if soiling occurs after planting.
[0010]
Accordingly, the present invention is configured as a means in which a tightening strip connected to a locking means provided on the frame is mounted on a pedestal provided with a frame-like frame. In the tree planting stabilization apparatus for fastening the root pot to the pedestal by hanging it over the shoulder of the base, the locking means includes a receiving part that is fitted along the bottom of the root pot and a holding part that is fitted along the side part of the root pot. And a connecting ring for connecting the fastening strip to the supporting member, and the supporting member is pivotally connected to the frame via a pivot, It can be pivoted so that the holding part is in a prone position when the receiving part is inclined upward toward the center of the frame, and the holding part is in a standing position when the receiving part is almost horizontal. It is in the point which consists of.
[0011]
The support means includes a frame member that is rotatable with respect to the pivot, a connection ring that is rotatably connected to the frame member via a connection shaft that is parallel to the pivot, and a frame member and the connection ring. The frame member includes an inner portion that extends inward from the vicinity of the pivot toward the center side of the frame, and an outer portion that faces away from the center side of the frame. An extending outer portion, and the inner portion and the outer portion are refracted upward from each other. The connecting ring is rotatably connected to the outer portion of the frame member via a connecting shaft. The bending member is constructed between the inner part of the frame member and the attachment shaft of the connecting ring, and constitutes the receiving part and the holding part in series.
[0012]
The bending member constitutes a spring that is elastically deformed between the inner portion of the frame member and the attachment shaft of the connection ring when the connection ring is rotated with respect to the frame member via the connection shaft.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
(Frame structure on the base)
As shown in FIGS. 1 to 3, the pedestal 1 constituting the tree planting stabilization apparatus is composed of a first frame 2 and a second frame 3 arranged so as to cross each other, and the first frame 2 and the second frame 3. Is composed of a plurality of parallel unit frames. In the case of the example shown in the figure, two unit frames are provided, the first frame 2 is composed of unit frames 2a and 2b, and the second frame 3 is composed of unit frames 3a and 3b. In the example shown in the figure, the unit frame is constituted by a round pipe, but may be constituted by a square pipe or the like.
[0015]
(Bending deviation configuration at the intersection of frames)
As illustrated, the first frame 2 (unit frames 2a and 2b) includes legs 2d and 2d extending in a radial direction from the intersections 2c and 2c with respect to the second frame 3, and similarly, the second frame 3 (units). The frames 3a, 3b) are provided with legs 3d, 3d extending radially from the intersections 3c, 3c with respect to the first frame 2. Therefore, in a state where the first frame 2 and the second frame 3 are arranged in an intersecting manner, at least one of the intersecting portions 2c, 2c and 3c, 3c so that the upper surfaces of the leg portions 2d and 3d are flush with each other. One side is bent downward. In the case of the illustrated example, the intersecting portions 2c and 2c of the first frame 2 are bent and deflected downward corresponding to the diameter of the round pipe of the unit frame, whereby the intersecting portions 2c and 2c of the first frame 2 are displaced. When the intersecting portions 3c and 3c of the second frame 3 intersect and overlap each other on the upper side, the upper surfaces of the leg portions 2d and 3d of both the frames 2 and 3 are configured to be flush with each other. However, for example, when the crossing portions 2c and 2c of the first frame 2 are bent and deviated more than the diameter of the round pipe, the crossing portions 3c and 3c of the second frame 3 are also bent and deviated downward. As long as the upper surfaces of the leg portions 2d and 3d are flush with each other.
[0016]
(Unit frame interval connection means in a frame)
The unit frames 2a and 2b constituting the first frame 2 and the unit frames 3a and 3b constituting the first frame 3 are connected via the interval connecting means so that the mutual interval W can be changed. ing. That is, as shown in FIG. 2, each of the unit frames 2a, 2b and 3a, 3b is composed of a pipe 4 and a rod 5 which are telescopically fitted to inner portions facing each other. An interval connecting means 6 having a set bolt for fixing 5 at an arbitrary expansion / contraction position is provided. Accordingly, the interval connecting means 6 allows the interval W2 between the unit frames 2a and 2b connected to each other of the first frame 2 and the interval W3 between the unit frames 3a and 3b connected to each other to the second frame 3. Can be adjusted freely, wide and narrow. In the example shown in the figure, the interval connecting means 6 is provided at the intersections 2c, 2c and 3c, 3c, but may be provided at the legs 2d, 2d and 3d, 3d.
[0017]
(Intersection connection means at the intersection of frames)
As shown in FIG. 1, the first frame 2 and the second frame 3 crossed via the crossing portions 2c, 2c and 3c, 3c can change the crossing angle with each other via the cross connecting means 7. It is connected. In the case of the illustrated example, the cross connecting means 7 is composed of an upper plate 8 and a lower plate 9 that sandwich the cross portions 2c, 2c and 3c, 3c from above and below, and the first frame 2 and the second frame 3 are crossed at a predetermined crossing. In a state where the plates are crossed at an angle θ, the center portions of both plates 8 and 9 are fastened by attaching and detaching fixing means 10 such as bolts and nuts, and the corners of both plates 8 and 9 are attached and detaching and fixing means 11 such as bolts and nuts. The structure fastened by is shown. Therefore, the first frame 2 and the second frame 3 can change the crossing angle θ between the upper plate 8 and the lower plate 9 by loosening the attachment / detachment fixing means 10, 11. , 11 are clamped by the upper plate 8 and the lower plate 9 so as to fix the crossing angle θ. However, the cross-connecting means 7 is not limited to the configuration shown in the drawing, and in short, connects the first frame 2 and the second frame 3 so that the crossing angle θ can be adjusted and changed between the crossing portions. I just need it.
[0018]
(Expandable connecting means for adjacent legs of the frame)
The first frame 2 and the second frame 3 that are arranged to be crossed and connected to each other in this way are connected via the expansion / contraction connecting means 12 around the intersections 2c, 2c and 3c, 3c. The expansion / contraction means 12 includes, for example, a telescopic body 13 made of a telescopic and fixed device such as a turnbuckle, a telescopic device such as a damper, and the like. The connecting means 14 is composed of connecting means 14, and the connecting means 14 is rotatably connected to a mounting bracket 15 provided at the mounting position of the first frame 2 and the second frame 3. In the case of the illustrated example, the mounting bracket 15 has a configuration in which a bracket is provided on a pipe piece slidably fitted to the leg portions 2d and 3d, and a predetermined position of the leg portions 2d and 3d by a set bolt (not shown). However, the present invention is not limited to such a configuration. Therefore, even if the interval between the adjacent leg portions 2d and 3d is changed by changing the crossing angle θ between the first frame 2 and the second frame 3 by the cross connecting means 7, as described above, The parts 2d and 3d can be connected to each other. And the expansion-contraction connection means 12 is provided with the burying board 16 extended toward the outer side (periphery direction of the base 1), and after installing the base 1 in the planting hole so that it may mention later, the planting hole was backfilled with earth and sand. At that time, the base 1 is fixed by being buried in the soil. In the case of the illustrated example, the embedded plate 16 is made of a metal plate having an L-shaped cross section having a base portion 16a and a flat portion 16b, and is attached to the stretchable body 13 so as to be reversible. That is, the mounting bracket 17 is fixed to the expansion and contraction body 13, and the base portion 16 a of the embedded plate 16 is fixed to the sleeve 16 c rotatably attached to the shaft portion 17 a of the mounting bracket 17. The stopper 17b of the mounting bracket 17 is brought into contact with the base portion 16a in a state where the flat portion 16b is expanded outward in a horizontal posture.
[0019]
(Locking means for tightening strip and supporting member for root pot)
Support members 18 are provided on the leg portions 2d and 2d of the unit frames 2a and 2b constituting the first frame 2 and the leg portions 3d and 3d of the unit frames 3a and 3b constituting the second frame 3, respectively. As will be described later, the support member 18 functions as a support means for supporting the root pot from the bottom to the side, and a locking means for locking a fastening strip for fastening the root pot.
[0020]
As shown in FIG. 2, the support member 18 is rotatable with respect to a seat bracket 19 slidably inserted in the leg portions 2d and 3d via a pivot 20 which is a horizontal axis intersecting the leg portion. A frame member 21 pivotally supported on the frame member 21, a connection ring 23 rotatably connected to the frame member 21 via a connection shaft 22 parallel to the pivot 20, and between the frame member 21 and the connection ring 23. The curved member 24 is constructed.
[0021]
The frame member 21 is opposite to the inner side 21a extending inward from the vicinity of the pivot 20 toward the center side of the first and second frames 2 and 3, and the center side of the first and second frames 2 and 3. The outer portion 21b extends toward the side, and the inner portion 21a and the outer portion 21b are refracted upward from each other.
[0022]
The connecting ring 23 is rotatably connected to a connecting shaft 22 made of a pipe material provided on the outer portion 21 b of the frame member 21, and an attachment shaft 25 made of a pipe material parallel to the connecting shaft 22 is attached to the connecting ring 23. Locking for the fastening strip piece is provided by a ring portion that is provided on the side of the connecting ring 23 so as to be rotatable and extends from the connecting shaft 22 toward the opposite side to the center side of the first and second frames 2 and 3. Part 26 is configured.
[0023]
The bending member 24 is formed of an elastically deformable sling rod, is bridged between the inner portion 21a of the frame member 21 and the mounting shaft 25 of the connecting ring 23, and is received along the bottom of the root pot as will be described later. The holding portion 24b is formed along the side 24a and the side portion of the root pot. In the case of the illustrated example, the receiving portion 24a and the holding portion 24b are configured to be bent in series.
[0024]
As shown in FIG. 5A, the support member 18 is rotatable through the pivot 20, and the inner portion 21a of the frame member 21 and the receiving portion 24a of the bending member 24 are connected to the first and second frames 2, respectively. 3, the posture is such that the outer portion 21 b of the frame member 21 and the holding portion 24 b of the bending member 24 are prone. From this state, by rotating through the pivot 20, as shown in FIG. 5 (B), the frame member 21 has an inner portion 21 a and a receiving portion 24 a of the bending member 24 in a substantially horizontal posture. The outer portion 21b of the member 21 and the holding portion 24b of the bending member 24 are in an upright posture. At this time, the outer portion 21 b of the frame member 21 stands up in a posture in which it is inclined upward toward the opposite side to the center side of the first and second frames 2 and 3, but the connecting ring 23 is connected via the connecting shaft 22. When it is rotated so as to stand upright, the bending member 24 formed of a spring rod is elastically deformed between the inner portion 21a of the frame member 21 and the mounting shaft 25 of the connecting ring 23 so as to increase the bending.
[0025]
(Resistance plate)
The leg portions 2d of the unit frames 2a, 2b constituting the first frame 2 and the leg portions 3d of the unit frames 3a, 3b constituting the second frame 3 are unit frames 2a, A wing-like resistance plate 27 extending in the separating direction of 2b, 3a, and 3b is provided, and the resistance plate 27 is lower than the leg portions 2d and 3d (preferably lower than the crossing portion 2c located on the lower side of the crossing portions). The reversing means 28 that allows each resistance plate 27 to be reversed in the opposing direction of the unit frames 2a, 2b, 3d, and 3d arranged in parallel, and the height position of the resistance plate 27 can be changed. Height adjusting means 29 is provided.
[0026]
In the case of the illustrated example, as shown in FIG. 2, mounting brackets 30 and 30 made of a pair of pipe pieces are slidably fitted on the legs 2d and 3d and fixed by set bolts (not shown). The reversing means 28 is constituted by a U-shaped support bracket 31 installed on the mounting brackets 30 and 30 and an L-shaped rotating bracket 32 having a base portion 32a and a flat portion 32b. That is, the base portion 32a of the rotating metal fitting 32 is fixed to the sleeve 32c rotatably inserted on the shaft portion 31a of the support metal fitting 31, and the flat portion 32b is horizontally oriented in the direction in which the legs 2d and 3d are separated. The stopper 31b of the support fitting 31 is brought into contact with the base portion 32a in a state where it is expanded so as to become.
[0027]
The resistance plate 27 is connected to a position below the flat portion 32b of the rotating metal fitting 32 via a height adjusting means 29 made up of bolts, nuts and the like that can adjust the vertical distance. Therefore, the rotating bracket 32 and the resistance plate 27 can be folded to the inverted position as shown in FIG. 3 by rotating the sleeve 32c of the rotating bracket 32 from the unfolded state as shown in FIG. is there.
[0028]
(Pedestal joint connector)
A joint connector 33 that allows the plurality of bases 1 to be connected to each other can be provided on the leg portions 2 d and 2 d of the first frame 2 and the leg portions 3 d and 3 d of the second frame 3. In the case of the illustrated example, the joint connector 33 is composed of a pipe piece as shown in FIG. 2, and of the bases 1, 1 laid adjacent to each other, the joint connector 33 of one base 1 is connected to the other base 1. The leg portion 2d or 3d is inserted and fixed by fixing means such as a set bolt (not shown). Such a joint connector 33 may be provided by being fixed to the mounting bracket 30 for the resistance plate 27 as shown in FIG. 2, or may be provided on the legs 2d and 3d or the resistance plate 27. .
[0029]
(Operations and effects based on the above embodiment)
According to the said embodiment, as shown in FIG. 3, the 1st flame | frame 2 and the 2nd flame | frame 3 which comprise the base 1 are packed in the decomposed | disassembled state, and can be stored or conveyed. At this time, since the resistance plate 27 can be folded by being inverted and the first frame 2 and the second frame 3 can be overlapped in parallel, it is compact without being bulky. In addition, the cross connection means 7 and the expansion / contraction connection means 12 can be disassembled from the first frame 2 and the second frame 3 and bundled or separately packaged.
[0030]
When the pedestal 1 is implemented as a planting stabilization device, as shown in FIG. 1, the first frame 2 and the second frame 3 are assembled in a cross shape, and are assembled by being connected and fixed by the cross connection means 7. At the same time, the legs 2d and 3d adjacent to each other of the first frame 2 and the second frame 3 are connected by the expansion / contraction means 12, and the pedestal 1 is completed with the embedded plate 16 and the resistance plate 27 deployed. At this time, each of the unit frames 2a, 2b, 3a, and 3b can change the intervals W2 and W3 of the leg portions 2d, 2d, 3d, and 3d via the interval connecting means 6. You can adjust. That is, the size of the root pot is set by one pedestal 1 by setting the distances W2 and W3 of the legs 2d, 2d and 3d, 3d according to the size of the root pot depending on the age of the tree intended for tree planting. It can be freely adapted to the height. Then, the intersections 3c and 3c of the second frame 3 are crossed and overlapped on the upper side of the intersections 2c and 2c of the first frame 2, and are provided at the intersections 2c and 2c in a state of being connected by the cross-connecting means 7. By the means of bending deflection, the leg portions 2d and 3d of both the frames 2 and 3 are flush with each other.
[0031]
As shown in FIG. 6A, when tree planting is performed on the ground, the planting hole 34 is excavated in the ground and the pedestal 1 is installed at the bottom of the hole. If there is a hole wall 34a that interferes with the end of the pedestal 1 that intersects the second frame 3, the attachment / detachment fixing means 10 and 11 of the cross connection means 7 are loosened, as shown by the solid line from the chain line in the figure. After the crossing angle θ between the first frame 2 and the second frame 3 is changed, the attachment / detachment fixing means 10 and 11 of the cross connection means 7 are fastened so that the base 1 does not interfere with the hole wall 34a. Can be installed. Therefore, unlike the prior art, there is no need to resume the excavation work so as to enlarge the hole again.
[0032]
As shown in FIG. 6 (B), for example, when planting trees on a relatively shallow floor for the purpose of rooftop greening or the like, a plurality of pedestals 1 and 1 are laid together and connected to each other. The tree will be supported by the overall weight increase. In this regard, according to the above-described embodiment, of the bases 1 and 1 laid adjacent to each other, the leg 2d or 3d of the other base 1 is fitted into the joint connector 33 of the base 1 and the set It can be fixed by fixing means such as bolts. At this time, as shown in FIG. 2, when the joint connector 33 is provided on the mounting bracket 30 of the resistance plate 27, the distance between the joint connectors 33, 33 of one pedestal 1 and the leg portion 2 d of the other pedestal 1. 2d and 3d and 3d do not match and the legs 2d, 2d and 3d and 3d cannot be inserted into the joint connectors 33 and 33 as they are, but as described above, the unit frames 2a, 2b and Each of 3a and 3b can change the intervals W2 and W3 of the leg portions 2d, 2d and 3d and 3d via the interval connecting means 6, so that by adjusting the interval as needed, one base 1 The leg portions 2d, 2d and 3d, 3d of the other pedestal 1 can be inserted into the joint connectors 33, 33.
[0033]
If the bottom of the planting hole has undulations, it is difficult to install the pedestal horizontally. Therefore, the planting hole must be drilled so that the bottom of the planting hole becomes a flat horizontal surface. In this regard, according to the above embodiment, as shown in FIG. 4, even when the bottom of the planting hole 34 has undulations, the height position of the resistance plate 27 can be adjusted by the height adjusting means 29. As a result, the first frame 2 and the second frame 3 can be installed horizontally, and there is no need for excavation work in which the hole bottom becomes a horizontal plane as in the conventional case.
[0034]
The pedestal 1 thus installed in the planting hole 34 has the support members 18 arranged around the intersecting portions in the unit frames 2a, 2b, 3a, and 3b adjusted in the intervals W2 and W3 as described above. Yes. That is, in the case of the illustrated example, eight support members 18 are arranged in the circumferential direction. Accordingly, when the root pot 36 of the tree 35 to be planted is placed on the pedestal 1, the root pot 36 is suitably supported by these support members 18.
[0035]
Before the root pot 36 is placed on the support member 18, the inner portion 21 a of the frame member 21 and the receiving portion 24 a of the bending member 24 are connected to the first and second frames 2, as shown in FIG. 3 is inclined upward toward the center side (intersection), and the outer portion 21b of the frame member 21 and the holding portion 24b of the bending member 24 are in a prone posture. At this time, as indicated by an arrow F in the figure, the metal fitting 19 is slidable in the longitudinal direction of the frames 2 and 3 and the position of the support member 18 can be freely adjusted.
[0036]
Therefore, when the root pot 36 is placed, the support member 18 is automatically rotated via the pivot 20 by the weight of the root pot 36. That is, the inner portion 21a of the frame member 21 that is inclined upward and the receiving portion 24a of the bending member 24 are rotated downward by receiving the bottom portion of the root pot 36, as shown in FIG. Furthermore, the posture is almost horizontal, and the outer portion 21b of the frame member 21 and the holding portion 24b of the bending member 24 are erected. At this time, since the frame member 21 receives the load of the root pot 36, the tip portion 21x of the inner portion 21a is brought into pressure contact with the frames 2 and 3, so that the seat bracket 19 is prevented from sliding, and the support member is placed at the position. 18 is positioned.
[0037]
Therefore, the fastening strip 37a such as a sling can be easily inserted into the locking portion 26 of the connecting ring 23 in the outer side portion 21b of the frame member 21 that is self-supported. The tightening strip 37a is looped over the shoulder of the root pot 36 via a tightening strip 37b provided annularly on the outer periphery of the tree 35, and then fastened by a fastening means such as a winch. Tie to pedestal 1.
[0038]
At this time, due to the force in the pulling-up direction of the fastening strip 37a, the connecting ring 23 is changed from the inclined posture shown by the chain line to the upward standing posture shown by the solid line through the connecting shaft 22 as shown in FIG. As a result, the bending member 24 made of a spring rod is elastically deformed to increase the bending. In other words, the bending member 24 elastically deformed in this manner accumulates a spring force that is to be restored from the upward standing posture shown by the solid line toward the inclined posture shown by the chain line. Note that the pulling force of the tightening strip 37a further increases the pressure contact force of the tip 21x of the frame member 21 to the frames 2 and 3 as described above.
[0039]
Thereafter, the planting hole 34 is backfilled with earth and sand, and the operation is completed. In this state, the root pot 36 is suitably supported by the support member 18 arranged around the intersection of the base 1. In particular, the bottom part of the root pot 36 is supported by the receiving part 24a of the support member 18, and the side part of the root pot 36 is held by the holding part 24b of the support member 18. Thus, the root pot 36 is It is directly supported by the support member 18 from the bottom to the side. Therefore, even when the earth and sand are firmly tightened inside the planting hole 34 due to the passage of time, rain water, or other weather, the root pot 36 is always well supported regardless of the earthiness caused by it. Can maintain the state.
[0040]
By the way, even if the tightened tightening strip 37a is loosened after that, the spring force accumulated by the bending member 24 is applied to the connecting ring 23 to which the tightening strip 37a is coupled. It is working. That is, when the tightening strip 37a is loosened, the connecting ring 23 is applied with the restoring spring force of the bending member 24 from the upward standing posture shown by the solid line to the inclined posture shown by the chain line in FIG. As a result, the looseness of the tightening strip 37a can be absorbed, and the tightening strip 37a can always be maintained in a tensioned state.
[0041]
(Another embodiment of the cross-linking means)
Another embodiment of the cross-linking means 7 according to the present invention is shown in FIG. In the figure, the unit frames 2a, 2b and 3a, 3b constituting the first frame 2 and the second frame 3 are connected in a fixed state so that the intervals W2 and W3 cannot be changed. The connection method is not limited, but in the case of the illustrated example, the connection pipe 38 constructed between unit frames is welded. Therefore, the first frame 2 has the intersecting portions 2c and 2c connected by the first connecting plate 39, and the second frame 3 has the intersecting portions 3c and 3c connected by the second connecting plate 40. In a state where the second connecting plate 40 is overlaid on 39, it is fixed by the cross connecting means 7 so as to be rotatable and fixed to each other.
[0042]
The cross connection means 7 includes shaft means 41 composed of bolts and nuts that pass through substantially the central portions of the first connection plate 39 and the second connection plate 40 and are detachably fixed, and a guide formed on the second connection plate 40. It comprises a hole 42 and guide fixing means 43 made up of bolts and nuts that stand up from the first connecting plate 39 and pass through the guide hole 42. The guide hole 42 is an elongated hole that draws a circular arc with the shaft means 41 as the center. Therefore, the first connecting plate 39 and the second connecting plate 40 are rotatable around the axis of the shaft means 41. At that time, the guide fixing means 43 moves along the guide hole 42, thereby freely changing the crossing angle θ between the first frame 2 and the second frame 3. Then, after the crossing angle θ is set, if the bolts and nuts of the shaft means 41 and / or the guide fixing means 43 are fastened, the first connecting plate 39 and the second connecting plate 40 are fixed in a non-rotatable manner. . Note that when these bolts and nuts are removed, the first connecting plate 39 and the second connecting plate 40 are separated from each other, and the first frame 2 and the second frame 3 can be disassembled in the embodiment shown in FIG. It is the same.
[0043]
(Another embodiment of support member)
Another embodiment of the support member 18 according to the present invention is shown in FIGS. The support member 18 includes a frame member 21 having a pivot 20, a connection ring 23 that is rotatably connected to the frame member 21 via a connection shaft 22 parallel to the pivot 20, and the frame member 21. It is comprised from the curved member 24 erected between the connection rings 23, and such a basic structure is the same as that of the support member 18 in embodiment mentioned above.
[0044]
As shown in FIG. 7, the frame member 21 is arranged so that the pivot 20 traverses the lower side of the leg portions 2d, 2d (3d, 3d) of the frame. An inner portion 21a extending above the leg portion 2d (3d) toward the inside which is the center side of the two and the third portion, and an outer portion 21b extending above the leg portion 2d (3d) toward the side opposite to the center side And the inner part 21a and the outer part 21b are refracted upward from each other.
[0045]
The connecting ring 23 includes a connecting shaft 22 made of a pipe member rotatably connected to the outer portion 21 b of the frame member 21, and a pair of parallel support rods extending so as to intersect near both ends of the connecting shaft 22. The slide members 25a and 25a made of a pipe member slidably fitted on the support rods 22a and 22a are connected to each other by a mounting shaft 25. Further, a locking portion 26 for the fastening strip piece is constituted by a rod that is installed on the pair of slide members 25a and 25a and is pivotally supported.
[0046]
The bending member 24 is constructed between the inner portion 21a of the frame member 21 and the mounting shaft 25 of the connecting ring 23, and as will be described later, a receiving portion 24a that is placed along the bottom of the root pot, and a side portion of the root pot. The holding portion 24b is bent in a series and preferably has a long hole 24c formed by a bent loop portion with respect to the mounting shaft 25 as shown in FIG. Are connected through.
[0047]
As shown in FIG. 8A, the support member 18 positions the pivot 20 below the frames 2 and 3, and positions the tip 21 x of the frame member 21 and the connecting shaft 22 above the frames 2 and 3. In the state where the connecting ring 23 is laid down together with the bending member 24, as shown by an arrow R in the figure, the frame 2 and 3 can slide in the longitudinal direction. Therefore, the position of the support member 18 can be freely adjusted.
[0048]
When the root pot 36 is placed in a state where the support member 18 is installed at a predetermined position of the frames 2 and 3, the inner portion 21 a of the frame member 21 that is inclined upward toward the inside and the receiving of the bending member 24. As shown in FIG. 8B, the portion 24a is rotated downward, and the frames 2 and 3 are clamped and fixed from above and below by the tip portion 21x of the inner portion 21a and the pivot 20, so that the sliding of the support member 18 is performed. Prevents movement and firmly locks in place.
[0049]
Therefore, when the fastening strip 37a such as a sling inserted through the engaging portion 26 of the connecting ring 23 is pulled up, the connecting ring 23 not only stands up while rotating through the connecting shaft 22, but also shown in FIG. As indicated by the solid line from the chain line, the slide member 25a is moved upward along the support rod 22a along with the lifting of the locking portion 26, and at the same time, the bending member 24 is pulled up by the mounting shaft 25 that moves upward. The side surface of the root pot 36 can be suitably held by the 24 holding portions 24b.
[0050]
【The invention's effect】
According to the present invention, when the root pot 36 is placed on the pedestal 1, the pedestal 1 includes the support member 18 that can favorably support the root pot 36 from the bottom to the side, so that the tightening strip is fastened. The root pot 36 can be firmly supported while the fastening force is preferably exerted between the root pot 36 and the support member 18. In particular, it is excellent in that the bottom portion of the root pot 36 can be reliably supported by the support member 18 even when the earth and sand are solidified inside the planting hole, and even when the soil is thin. Furthermore, even if the tightening strip piece acts so as to be loosened, the loosening is absorbed by the accumulated restoring force, so that there is an effect that the tightening strip piece can always be maintained in a tensioned state.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an assembled state of a pedestal according to an embodiment of the present invention.
FIG. 2 is an enlarged perspective view showing a main part of one embodiment of the present invention.
FIG. 3 is a perspective view showing an exploded state of a pedestal according to one embodiment of the present invention.
FIG. 4 is a cross-sectional view showing an example of a method for tree planting by using a pedestal according to an embodiment of the present invention.
FIG. 5 shows one embodiment of a support member in the pedestal of the present invention, (A) is a side view showing the normal state of the support member in cross section, and (B) is a state in which a root pot is placed on the support member. FIG.
6A and 6B show an example of use of the pedestal according to the present invention from a plan view, where FIG. 6A is an explanatory view showing the relationship between the crossing angle of the frames constituting the pedestal and planting holes, and FIG. It is explanatory drawing of the example laid down by.
FIG. 7 is a perspective view showing a main part of another embodiment of the present invention.
FIG. 8 shows another embodiment of the support member in the pedestal of the present invention, (A) is a side view showing the normal state of the support member in cross section, and (B) is a root pot placed on the support member. It is a side view which shows a state in a cross section.
[Explanation of symbols]
1 pedestal
2 First frame
3 Second frame
2a, 2b, 3a, 3b Unit frame
2c, 3c intersection
2d, 3d legs
6 Spacing connection means
7 Cross connection means
12 Telescopic connection means
16 Buried board
18 Support member
19 Seat bracket
20 Axis
21 Frame member
21a inner side
21b outer part
22 Connecting shaft
23 connecting rings
24 Curved member
24a receiving part
24b Holding part
25 Mounting shaft
26 Locking part
27 Resistance plate
28 Reversing means
29 Height adjustment means
33 Joint connector
34 Planting hole
35 trees
36 root pot
37a, 37b Tightening strip

Claims (3)

With the root pot of the tree placed on a pedestal having a frame-like frame, the root pot is hung on the shoulder of the root pot by hanging a fastening strip connected to the locking means provided on the frame. In the planting stabilizer that fastens to the pedestal,
The locking means is constituted by a support member 18 having a receiving portion 24a along the bottom of the root pot and a holding portion 24b along the side of the root pot, and is fastened to the support member 18. A connecting ring 23 for connecting the strips is provided,
The support member 18 is pivotally connected to the frame via a pivot shaft 20, and in a posture in which the receiving portion 24a is inclined upward toward the center portion of the frame, the holding portion 24b is in a prone posture. The planting stabilization device is configured to be rotatable so that the holding portion 24b is raised in a posture in which the receiving portion 24a is substantially horizontal. The support means 18 includes a frame member 21 that is rotatable with respect to the pivot 20, a connecting ring 23 that is pivotally connected to the frame member 21 via a connecting shaft 22 that is parallel to the pivot, and a frame member. 21 and a bending member 24 constructed between the connecting ring 23 and
The frame member 21 includes an inner portion 21a extending inward from the vicinity of the pivot 20 toward the center side of the frame, and an outer portion 21b extending outward toward the opposite side to the center side of the frame. The portion 21a and the outer portion 21b are refracted upward from each other,
The connecting ring 23 is rotatably connected to the outer portion 21b of the frame member 21 via a connecting shaft 22, and is provided with an attachment shaft 25 parallel to the connecting shaft 22.
The bending member 24 is constructed between an inner portion 21a of a frame member 21 and an attachment shaft 25 of a connecting ring 23, and is constituted by a series of the receiving portion 24a and a holding portion 24b. Item 10. A tree planting stabilization apparatus according to item 1. When the connecting ring 23 is rotated with respect to the frame member 21 via the connecting shaft 22, the bending member 24 is a spring that elastically deforms between the inner portion 21 a of the frame member 21 and the mounting shaft 25 of the connecting ring 23. The tree planting stabilization device according to claim 1 or 2, wherein the planting stabilization device is configured.

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